镍基WC等离子弧熔敷层的组织和高温磨损性能

傅卫; 王惜宝; 陈国喜

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镍基WC等离子弧熔敷层的组织和高温磨损性能
傅卫¹, 王惜宝², 陈国喜¹
1.宝钢设备检修有限公司宝钢机械厂, 表面研究所, 上海 201900;2.天津大学, 材料学院, 天津 300072

摘要:

为在15CrMo钢表面采用等离子堆焊含60%WC的镍基合金粉末,对堆焊层的显微组织、硬度和高温耐磨性能进行了试验分析.结果表明,堆焊层焊道成形良好,堆焊层组织致密.堆焊层横截面上WC颗粒分布均匀,WC颗粒的质量分数可达60%以上,堆焊后WC颗粒硬度值基本上仍保持了原有的高硬度,颗粒表面重熔量小.堆焊层具有较高的硬度;原始WC颗粒构成的硬质骨架,加上次生WC的弥散强化作用,使堆焊层具有良好的耐磨料磨损性能,其600℃高温耐磨料磨损性能为45正火钢的5倍以上。

关键词: 等离子弧碳化钨组织高温磨损

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基金项目:国家自然科学基金资助项目(50574068)

Microstructure and high temperature abrasion resistance of Ni-based WC composite layer deposited by plasma arc

FU Wei¹, WANG Xibao², CHEN Guoxi¹

1.Baosteel Machinery Plant Surface Technology Institute, The Surfacing Institute of Machinery Maintenance Ltd., Baosteel, Shanghai 201900, China;2.School of Materials Science and Technology, Tianjin University, Tianjin 300072, China

Abstract:

The Ni-based alloy powder with 60% WC was deposited on the surface of 15CrMo by plasma arc surfacing.The microstructures, hardness and wear resistance of the layer were analyzed.The results show that the layer has good external appearance and the WC particles which maintain its high hardness and exhibit few refusion distributes uniformly across the section of the layer.The layer also has high hardness and wear-resistance at elevated temperature, which is 5 times than that of 45 normalized steel.

Key words: plasma transferred-arc WC particle microstructure wear-resistance at elevated temperature